Numerical Methods for Optimal Control Problems: Springer INdAM Series, cartea 29
Editat de Maurizio Falcone, Roberto Ferretti, Lars Grüne, William M. McEneaneyen Limba Engleză Hardback – 5 feb 2019
Din seria Springer INdAM Series
- 15%
Preț: 604.75 lei - 18%
Preț: 1054.95 lei - 18%
Preț: 1164.03 lei - 18%
Preț: 1063.17 lei - 18%
Preț: 1169.22 lei - 18%
Preț: 1051.95 lei - 15%
Preț: 615.56 lei - 18%
Preț: 1062.39 lei - 20%
Preț: 557.20 lei -
Preț: 385.11 lei -
Preț: 372.17 lei -
Preț: 371.44 lei - 15%
Preț: 616.84 lei - 15%
Preț: 616.97 lei -
Preț: 371.39 lei - 15%
Preț: 669.50 lei - 15%
Preț: 613.74 lei - 15%
Preț: 612.94 lei - 18%
Preț: 753.64 lei - 15%
Preț: 610.19 lei - 15%
Preț: 611.24 lei - 18%
Preț: 901.55 lei - 18%
Preț: 758.18 lei - 15%
Preț: 668.58 lei - 18%
Preț: 1000.79 lei - 15%
Preț: 497.86 lei - 15%
Preț: 500.97 lei - 18%
Preț: 698.02 lei - 15%
Preț: 556.08 lei - 15%
Preț: 617.89 lei - 15%
Preț: 668.01 lei - 18%
Preț: 838.82 lei - 18%
Preț: 899.97 lei
Preț: 665.16 lei
Preț vechi: 782.54 lei
-15% Nou
Puncte Express: 998
Preț estimativ în valută:
127.33€ • 138.71$ • 106.82£
127.33€ • 138.71$ • 106.82£
Carte tipărită la comandă
Livrare economică 18 decembrie 24 - 01 ianuarie 25
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9783030019587
ISBN-10: 3030019586
Pagini: 240
Ilustrații: X, 268 p. 44 illus., 26 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.57 kg
Ediția:1st ed. 2018
Editura: Springer International Publishing
Colecția Springer
Seria Springer INdAM Series
Locul publicării:Cham, Switzerland
ISBN-10: 3030019586
Pagini: 240
Ilustrații: X, 268 p. 44 illus., 26 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.57 kg
Ediția:1st ed. 2018
Editura: Springer International Publishing
Colecția Springer
Seria Springer INdAM Series
Locul publicării:Cham, Switzerland
Cuprins
1 M. Assellaou and A. Picarelli, A Hamilton-Jacobi-Bellman approach for the numerical computation of probabilistic state constrained reachable sets.- 2. A. Britzelmeier, A. De Marchi, and M. Gerdts, An iterative solution approach for a bi-level optimization problem for congestion avoidance on road networks.- 3 S. Cacace, R. Ferretti, and Z. Rafiei, Computation of Optimal Trajectories for Delay Systems: an Optimize-Then-Discretize Strategy for General-Purpose NLP Solvers.- 4 L. Mechelli and S. Volkwein, POD-Based Economic Optimal Control of Heat-Convection Phenomena.- 5 A. Alla and V. Simoncini, Order reduction approaches for the algebraic Riccati equation and the LQR problem.- 6 F. Durastante and S. Cipolla, Fractional PDE constrained optimization: box and sparse constrained problems.- 7 M. C. Delfour, Control, Shape, and Topological Derivatives via Minimax Differentiability of Lagrangians.- 8 A. J. Krener, Minimum Energy Estimation Applied to the Lorenz Attractor.- 9 M. Akian and E. Fodjo, Probabilistic max-plus schemes for solving Hamilton-Jacobi-Bellman equations.- 10 P. M. Dower, An adaptive max-plus eigenvector method for continuous time optimal control problems.- 11 W. Mc Eneaney and R. Zhao, Diffusion Process Representations for a Scalar-Field Schr¨odinger Equation Solution in Rotating Coordinates.
Notă biografică
Maurizio Falcone is Professor of Numerical Analysis at the University of Rome "La Sapienza" since 2001. He held visiting positions at several institutions including ENSTA (Paris), the IMA (Minneapolis), Paris 6 and 7, the Russian Academy of Sciences (Moscow and Ekaterinburg) and UCLA. He serves as associate editor for the journal "Dynamic Games and Applications" and has authored a monograph and about 80 papers in international journals.
His research interests include numerical analysis, control theory and differential games.
Roberto Ferretti is Associate Professor of Numerical Analysis at Roma Tre University since 2001. He has been an invited professor in UCLA (USA), Universitet Goroda Pereslavlya (Russia), ENSTA-Paristech and IRMA (France), TU Munich (Germany) and UP Madrid (Spain). He has authored a monograph and more than 40 papers on international journals/volumes, in topics ranging from semi-Lagrangian schemes to optimal control, levelset methods, image processing and computational fluid Dynamics.
Lars Grüne is Professor for Applied Mathematics at the University of Bayreuth, Germany. He obtained his Ph.D. from the University of Augsburg in 1996 and his habilitation from Goethe University in Frankfurt/M in 2001. He held visiting positions at the Sapienza in Rome (Italy) and at the University of Newcastle (Australia) and is Editor-in-Chief of the journal Mathematics of Control, Signals and Systems. His research interests lie in the areas of mathematical systems theory and optimal control.
William M. McEneaney received B.S. and M.S. degrees in Mathematics from Rensselaer Polytechnic Inst., followed by M.S. and Ph.D. degrees in Applied Mathematics from Brown Univ. He has held academic positions at Carnegie Mellon Univ. and North Carolina State Univ., prior to his current appointment at Univ. of California, San Diego. His non-academic positions have included Jet Propulsion Laboratory and AirForce Office of Scientific Research. His interests include Stochastic Control and Games, Max-Plus Algebraic Numerical Methods, and the Principle of Stationary Action.
His research interests include numerical analysis, control theory and differential games.
Roberto Ferretti is Associate Professor of Numerical Analysis at Roma Tre University since 2001. He has been an invited professor in UCLA (USA), Universitet Goroda Pereslavlya (Russia), ENSTA-Paristech and IRMA (France), TU Munich (Germany) and UP Madrid (Spain). He has authored a monograph and more than 40 papers on international journals/volumes, in topics ranging from semi-Lagrangian schemes to optimal control, levelset methods, image processing and computational fluid Dynamics.
Lars Grüne is Professor for Applied Mathematics at the University of Bayreuth, Germany. He obtained his Ph.D. from the University of Augsburg in 1996 and his habilitation from Goethe University in Frankfurt/M in 2001. He held visiting positions at the Sapienza in Rome (Italy) and at the University of Newcastle (Australia) and is Editor-in-Chief of the journal Mathematics of Control, Signals and Systems. His research interests lie in the areas of mathematical systems theory and optimal control.
William M. McEneaney received B.S. and M.S. degrees in Mathematics from Rensselaer Polytechnic Inst., followed by M.S. and Ph.D. degrees in Applied Mathematics from Brown Univ. He has held academic positions at Carnegie Mellon Univ. and North Carolina State Univ., prior to his current appointment at Univ. of California, San Diego. His non-academic positions have included Jet Propulsion Laboratory and AirForce Office of Scientific Research. His interests include Stochastic Control and Games, Max-Plus Algebraic Numerical Methods, and the Principle of Stationary Action.
Textul de pe ultima copertă
The volume presents recent mathematical methods in the area of optimal control with a particular emphasis on the computational aspects and applications. Optimal control theory concerns the determination of control strategies for complex dynamical systems in order to optimize measures of their performance. The field was created in the 1960's, in response to the pressures of the "space race" between the US and the former USSR, but it now has a far wider scope and embraces a variety of areas ranging from process control to traffic flow optimization, renewable resources exploitation and financial market management. These emerging applications require increasingly efficient numerical methods to be developed for their solution – a difficult task due the huge number of variables. Providing an up-to-date overview of several recent methods in this area, including fast dynamic programming algorithms, model predictive control and max-plus techniques, this book is intended for researchers, graduate students and applied scientists working in the area of control problems, differential games and their applications.
Caracteristici
Presents recent mathematical methods for optimal control problems and their applications Provides rigorous mathematical results Offers several hints on numerical methods and on the construction of efficient algorithms